Post on 13-Mar-2020
Monetary Policy
Part I: Money and Inflation in the Long-Run
Chris EdmondNYU Stern
Spring 2008
1
Agenda
• Two classes on money, inflation, and monetary policy
– introduction: basic concepts and hyperinflation (today)– monetary policy: goals, instruments, central banking,
and monetary transmission mechanism (next week)
2
Today
• Basic concepts and theories
– quantity theory of money
* money and inflation in the long run
– Fisher e!ect
* interest rates and expected inflation in the long run
• Hyperinflation
– examples– connection to fiscal policy
3
Money concepts
• What is money? Traditional answers
– medium of exchange– store of value
• Consider assets safe in nominal terms
– more liquid, zero or low interest-bearing assets ‘money’– less liquid, higher interest-bearing assets ‘bonds’– spectrum, no hard boundaries (so M0, M1, M2, etc)
• Some monetary assets created by government
• Some monetary assets created by private sector
4
Money and exchange
• Why is money accepted in exchange?
– alternative is a barter economy– money overcomes ‘double coincidence of wants’ problem– facilitates specialization
• What monetary assets solve this problem?
– cash?– credit?
5
Price level and inflation
• Given some money, how much real stu! can I consume?
– answer depends on prices as summarized by price level– consumer price index (CPI) or GDP deflator
• High price level means consume less for given amount of money
• We will use the symbol P for the price level and ! for inflation
• Inflation is the rate of growth in the price level
!t = "P,t = log(Pt)! log(Pt!1)
6
Prices and inflation
cumulative growth year-on-year growth
price level log(Pt)
inflation !t
(right axis)
7
Monetary regimes
• Gold standard, etc
– historical notion: actual use of commodity in exchange– modern notion: paper money backed by government
‘one US dollar worth135
of a troy ounce (889 mg) of gold’
– if credible, pins down price level– problems?
• Fiat money
– historical notion: paper money, legal status by government decree– modern notion: paper money unbacked by government– problems?
8
Monetary regimes
9
Monetary neutrality• Classic thought experiment
– government replaces each dollar with a ‘strong dollar’
$str1 = $10
– drop a zero to get prices in strong dollars, nothing real changes– money is neutral
• Real-world examples
– currency reforms, introduction of euro
• Questions
– is money neutral?– implications for monetary policy?– if money is neutral, why worry about inflation?
10
Costs of high inflation
• Time and energy devoted to avoiding holding money
– costs of changing nominal prices– in extreme cases, money no longer useful for transactions– if so, revert to barter economy (or ‘dollarize’)
• With high and/or variable inflation, need to index contracts
– wages, bond payments, mortgage payments– otherwise, inflation redistributes from lenders to borrowers
11
Monetarism
• Milton Friedman:
The fact is that inflation is always and everywhere amonetary phenomenon. There has never been an inflation inthe course of history which has not been produced by an excessivelyrapid rate of increase in the quantity of money. The quantity ofmoney has gone up faster than total output and the resultinevitably has been a rise in prices.
• What does this mean? Why does he say this?
– he is articulating the ‘quantity theory of money’– what’s that?
12
Velocity of money
• One dollar used to execute several transactions per period of time
• Velocity, V is defined by
V " PC
M
where P is price level, C is real consumption, M is money supply
• Often written
MV = PC
• So far, this is just a definition
13
Quantity theory of money (first take)
• Velocity of money
MV = PC
• Assumptions
1. level of velocity approximately constant2. growth rate of real consumption independent of money supply3. money supply controlled by the government
• Implication: inflation is a monetary phenomenon
! " "P = "M + "V ! "C = "M ! "C
• Money growth in excess of consumption growth causes inflation
14
Long run evidence on the quantity theory
cumulative growth
price level log(Pt)
velocity log(Vt)
money/real consumption log(Mt/Ct)
15
Inflation and interest rates
• Nominal interest rate. Example
– bond pays $100 in one year– current price is $96.15– annualized interest rate i solves
96.15 =1001 + i
# i = 0.04
• Real interest rate. Usual measure
r = i! E{!}
where E{!} is expected inflation (why ‘expected’?)
16
Fisher expected inflation e!ect
• Real and nominal interest rates
i = r + E{!}
• Irving Fisher’s theory
– real interest rates independent of monetary forces– instead determined by
* time discounting* growth rate of real output, productivity* demographics, etc
• Implications
– monetary policy can only influence expected inflation– nominal rates and expected inflation should move together
17
Evidence and implications
• Evidence for Fisher’s theory?
– works when high inflation or in long run– does not work when low inflation or in short run
• Implication
– monetary policy influences real rate in short run– monetary policy does not influence real rate in long run
18
Fisher e!ect with high inflation
!
"
#!
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$!
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%&'(&)*+,&
#-."/# #--!/# #--"/# $!!!/# $!!"/#0
12&3405)06!/5)*708!9233 :+*&05;02);3+*25)
<'&&(&0!0=);3+*25)0+)40>5/2)+30:+*&?
19
US nominal interest rates and inflation
annual percentage
nominal interest rate T3M
inflation
20
Inflation and expected inflation
annual percentage
inflation
nominal interest
expected inflation(Michigan survey)
21
Nominal and real interest rates
annual percentagenominal interest
real interest
22
Treasury inflation-protected securities (TIPS)
nominal interest rate
T10Y
TIPS10Y
inflation-protected rate
annual percentage
23
Naive measure of market expectations
annual percentage
expected inflation?
24
Naive measure of market expectations
• Recall usual formula
i = r + E{!}
• Main idea
– if TIPS rate is market real rate r– then expected inflation is nominal rate less TIPS rate
• Problems
– TIPS rate is not quite market real rate r– TIPS market less liquid than treasuries market – liquidity premium– usual formula only an approximation, does not account for inflation
risk premium
25
Liquidity premia in TIPS market
annual percentage
estimated liquidity premium for TIPS10Y
26
After adjusting for liquidity and inflation risk
annual percentage
TIPS10Y
T10Y
naive measure
expected inflation
27
Various measures of expected inflation
annual percentageMichigan consumer survey
survey professional forecasters
TIPS adjusted
28
What have we learned so far?
• In the long run
– money neutral– inflation caused by money growth in excess of consumption growth– nominal interest rates reflect expected inflation
• But in the short run, especially if inflation is low
– money not neutral– real interest rates and nominal interest rates move together
29
Rest of this class
• Hyperinflation
– examples– connection to fiscal policy– preventing them
30
Argentina
This note is from the 1980s. What’s it worth today? Why?
31
Germany
October 1923: 20 dollars = 100,000,000,000 marks
32
Germany
Progression of stamps in Weimar Germany
33
German hyperinflation
End result of a hyperinflation?
34
Open market operations
• Monetary base controlled by central banks
• Introduce money via open market operations
– open market sale: sell government debt, receive money– open market purchase: buy government debt, pay money
• Implies
– fiscal deficit financed with mix of bond issues and printing money
• Seignorage
– revenue obtained by monetizing fiscal deficits
35
Fiscal origins of hyperinflation
• Financing government deficits
deficit = (Mt+1 !Mt) + (Bt+1 !Bt)
where
Mt = money supply at date t
Bt = bonds outstanding at date t
• Why would government finance deficit by printing money?
– intractable deficit– no buyers for government debt
36
German experience
• 1914 suspended convertibility of currency for gold
• 1914-1918 borrowed to finance WWI
• 1919-1923 big deficits continue, war reparations, deficits monetized
• 1922 inflation peaks at 3.35 million percent per month
• 1923 fiscal-monetary reform: 1 ‘gold’ mark = 1012 paper marks
37
European hyperinflations
Country dates average inflation (per month)Austria 1921-1922 47%Germany 1922-1923 322%Greece 1943-1944 365%Hungary 1923-1924 46%Hungary 1945-1946 19,800%Poland 1923-1924 81%Russia 1921-1924 57%
38
Latin American hyperinflations
Argentina Bolivia Brazil Nicaragua Peru
1984 627 1,281 192 35 110
1985 672 11,750 226 219 163
1986 90 276 147 681 78
1987 131 14 228 911 86
1988 343 16 629 10,205 667
1989 3,080 15 1,430 47,770 3,399
1990 2,314 17 2,947 7,485 7,482
1991 172 21 432 2,945 410
1992 25 12 951 23 74
1993 10.6 9 1,977 20 49
1994 0.16 12 16 11.6 12
39
Brazilian example
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40
Zimbabwe
date average annual inflation (o"cial)1980 7%1985 10%1990 17%1995 28%
2000 55%2001 112%2002 199%2003 599%2004 133%2005 586%2006 1,281%2007 66,212%
41
Zimbabwe
• 1980 independence, de facto one party state
• 1980-1990s steady decline in living standards, political dissent
• 2000 begins policy of redistributing white-owned farms
• 2000s export collapse, di"culties paying foreign loans, inflation
• Feb 2006 government prints 20.5 trillion ZWD to pay foreign loans
• Aug 2006 redenomination 1 new ZWD = 1000 old ZWD
• Feb 2007 inflation declared ‘illegal,’ price controls
• Nov 2007 ‘impossible to calculate inflation any further’
42
Paying for lunch
43
Preventing hyperinflation
• Inflation caused by excessive money growth
• Money growth because of monetized fiscal deficits
• Orthodox solution
– independent central bank– goal of central bank: price stability– fiscal discipline
• Even mild inflation can get out of hand because of momentum
– need to ‘anchor’ inflation expectations
44